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Water Balance. A. Loss Occurs Via. 1. Evaporation from body via sweat: cutaneous evaporation . 2 . Evaporation from respiratory system, including lungs and mucous membranes : pulmonary evaporation . 3. Waste both in both urine and feces. 4. Lactation. Water Balance.
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Water Balance A. Loss Occurs Via 1. Evaporation from body via sweat: cutaneous evaporation. 2. Evaporation from respiratory system, including lungs and mucous membranes: pulmonary evaporation. 3. Waste both in both urine and feces 4. Lactation
Water Balance B. Sources of Water Drink free water - Water that is freely available in the desert is very rare. As a result many desert-adapted rodents have lost the ability to actually drink free water. 2. Preformed (Dietary) Water - Water in tissues of food. Many plants are hygroscopic; they take up water during the evenings when there is a little more moisture. Many desert rodents, such as Neotomalepida,feed on Opuntia cactus. Carnivorous desert mammals obtain all the water they require from their prey - Onychomysleucogaster.
3. Metabolic Water – Water formed as a by-product of metabolizing nutrients. The amount of water produced depends on both the amount of food eaten and the composition of the diet. Metabolism of protein -- 0.396 g H20/g protein carbohydrate -- 0.556 g H20/g carbs fat -- 1.071 g H20/g fats We might expect desert species to eat lots of fatty foods, but they actually tend not to because of the high energy-cost of metabolizing lipids. It’s more efficient to eat a lot of carbohydrates. Many desert rodents (e.g., Heteromyids) rely exclusively on metabolic water production and preformed water.
Over the long term, gains must equal losses. Desert-adapted forms have the ability to withstand short-term dehydration. Generalized forms (e.g., Homo, Rattus) can only survive loss of 10-14% of body weight in water. Desert-adapted forms such as camels (Camelusdromedarius) can survive loss of 25% of body weight.
Adaptations for Conservation of Water Obviously some of the same strategies for avoiding heat stress will also result in water conservation by eliminating the need for evaporative cooling. 1. Nocturnal – This not only avoids the need for evaporative cooling, but many forms feed only at night. This is the most humid part of the day and vegetation absorbs moisture from the relatively humid night air. 2. Fossorial - We’ve discussed that it’s cooler in burrows than on the surface. In addition, many desert rodents plug their burrows. This traps respired moisture and the relative humidity in burrows is up to 76% relative humidity, much higher than outside. Dry seeds are usually stored in humid burrows, where they actually absorb respired moisture from the humid air in the burrows. This absorbed water may actually account for up to 30% of a kangaroo rat’s daily water requirement.
Adaptations for Conservation of Water 3. Sweat prevention Obligate – Desert rodents have lost the ability to sweat. Facultative – Bovids suppress sweating when water-stressed. 4. Shifts in Diet Ammospermophilus shifts diet seasonally. They feed on carbohydrate-rich foods in the dry season to optimize production of metabolic water. They also tend to feed on insects, which are a good source of preformed water.
Adaptations for Conservation of Water 5. Nasal Recycling – Critical for desert rodents. • Exhaled air is actually cooler than body temperature in these forms. • They have a long, narrow rostrum with large mucosa, the membrane that produces nasal mucus. • As air is inhaled, mucus evaporates from the mucosa. This slight loss of • water results in evaporative cooling of the mucous membrane. • Once in the lungs, inspired air becomes warmed to body temperature and • saturated with water. • On exhalation, this warm, moist air passes the cool mucosa. This cools the air and the moisture from pulmonary evaporation condenses. - Much of this condensed water is then absorbed through the mucosa. With this strategy, Dipodomys recover 80% of the pulmonary evaporation
Adaptations for Conservation of Water 6. Concentrate urine – All desert species have this ability to some degree. Nephron Renal artery – lots of pressure in renal corpuscle. Very long Loops of Henle permit a great deal of resorbptionof water and therefore the production of concentrated urine. In desert-adapted rodents, the long Loops of Henle are relatively longer than in generalized mammals. In addition, a higher percentage of nephrons have these very long Loops of Henle.
Renal Flexibility in Desmodusrotundus Sanguinivorous